Quantum / NCr / conducted using a Superconducting-Quantum-InterferenceDevice / /
Facility
California Institute of Technology / Kavli Nanoscience Institute / /
IndustryTerm
metal / technological applications / nano-scale spintronic devices / helium gas / characteristic energy / low-energy insulating gap / low-energy tunneling conductance / spintronic applications / low-energy features / chemical compositions / reproducible spintronic devices / faster processing speed / energy gap / energy-dependent spin-polarized tunneling conductance / vs. energy / positive characteristic energy / chemical potential / chemical etching / electronics / pure ethanol solution / low-energy insulating energy gap / spin-dependent energy bands / constant energy / surface energy gap / quasiparticle energy / wide energy range / spintronic devices / energy / /
MusicGroup
LCMO / /
OperatingSystem
DOS / Fermi / /
Organization
California Institute of Technology / Kavli Nanoscience Institute / Department of Physics / /
Position
representative / /
ProvinceOrState
LCMO / California / /
Technology
laser / x-ray / information technology / spectroscopy / /
Spin-polarized tunneling spectroscopic studies of the intrinsic heterogeneity and pseudogap phenomena in colossal magnetoresistive manganite La0.7 Ca0.3 MnO3 C. R. Hughes,1 J. Shi,1 A. D. Beyer,1 and N.-C. Yeh2,1 1